Vagrant configuration to setup a partitioned Apache Kafka installation with clustered Apache Zookeeper.
This configuration will start and provision six CentOS6 VMs:
- Three hosts forming a three node Apache Zookeeper Quorum (Replicated ZooKeeper)
- Three Apache Kafka nodes with one broker each
Each host is a Centos 6.9 64-bit VM provisioned with JDK 8 and Kafka 1.1.0.
Here we will be using the verion of Zookeeper that comes pre-packaged with Kafka. This will be Zookeeper version 3.4.10 for the version of Kafka we use.
- Vagrant (tested with 2.0.2) [make sure you are on 2.x.x version of Vagrant]
- VirtualBox (tested with 5.1.12)
To start it up, just git clone this repo and execute vagrant up
. This will take a while the first time as it downloads all required dependencies for you.
Kafka is installed on all hosts and can be easily accessed through the environment variable $KAFKA_HOME
Here is the mapping of VMs to their private IPs:
VM Name | Host Name | IP Address |
---|---|---|
zookeeper1 | vkc-zk1 | 10.30.3.2 |
zookeeper2 | vkc-zk2 | 10.30.3.3 |
zookeeper3 | vkc-zk3 | 10.30.3.4 |
broker1 | vkc-br1 | 10.30.3.30 |
broker2 | vkc-br2 | 10.30.3.20 |
broker3 | vkc-br3 | 10.30.3.10 |
Hosts file entries:
10.30.3.2 vkc-zk1
10.30.3.3 vkc-zk2
10.30.3.4 vkc-zk3
10.30.3.30 vkc-br1
10.30.3.20 vkc-br2
10.30.3.10 vkc-br3
Zookeeper servers bind to port 2181. Kafka brokers bind to port 9092.
First test that all nodes are up vagrant status
. The result should be similar to this:
Current machine states:
zookeeper1 running (virtualbox)
zookeeper2 running (virtualbox)
zookeeper3 running (virtualbox)
broker1 running (virtualbox)
broker2 running (virtualbox)
broker3 running (virtualbox)
This environment represents multiple VMs. The VMs are all listed
above with their current state. For more information about a specific
VM, run 'vagrant status NAME''.
Login to any host with e.g., vagrant ssh broker1
. Some scripts have been included for convenience:
-
Create a new topic
/vagrant/scripts/create-topic.sh <topic name>
(create as many as you see fit)Note: If this step fails, exit the VM and run
vagrant up --provision
(if error persists, please file an issue) -
Topics can be listed with
/vagrant/scripts/list-topics.sh
-
Start a console producer
/vagrant/scripts/producer.sh <topic name>
. Type few messages and seperate them with new lines (ctl-C
to exit). -
/vagrant/scripts/consumer.sh <topic name>
: this will create a console consumer, getting messages from the topic created before. It will read all the messages each time starting from the beginning.
Now anything you type in producer, it will show on the consumer.
To destroy all the VMs
vagrant destroy -f
Kafka is using ZK for its coordination, bookkeeping, and configuration. Here are some commands you can run on any of the nodes to see some of the internal ZK structures created by Kafka.
$KAFKA_HOME/bin/zookeeper-shell.sh 10.30.3.2:2181
(you can use the IP of any of the ZK servers)
Inside the shell we can browse the zNodes similar to a Linux filesystem:
ls /
[cluster, controller, controller_epoch, brokers, zookeeper, admin, isr_change_notification, consumers, log_dir_event_notification, latest_producer_id_block, config]
ls /brokers/topics
[t1, t2, __consumer_offsets]
ls /brokers/ids
[1, 2, 3]
We can see that there are two topics created (t1, t2) and we already know that we have three brokers with ids 1,2,3.
After you have enough fun browsing ZK, type ctl-C
to exit the shell.
First we need to install nc
:
sudo yum install nc -y
To get the version of ZK type:
echo status | nc 10.30.3.2 2181
You can replace 10.30.3.2 with any ZK IP 10.30.3.<2,3,4> and execute the above command from any node within the cluster.
Q: Which Zookeeper server is the leader?
Here is a simple script that asks each server for its mode:
for i in 2 3 4; do
echo "10.30.3.$i is a "$(echo status | nc 10.30.3.$i 2181 | grep ^Mode | awk '{print $2}')
done
Let's explore other ways to ingest data to Kafa from the command line.
Login to any of the 6 nodes
vagrant ssh zookeeper1
Create a topic
/vagrant/scripts/create-topic.sh test-one
Send data to the Kafka topic
echo "Yet another line from stdin" | $KAFKA_HOME/bin/kafka-console-producer.sh \
--topic test-one --broker-list vkc-br1:9092,vkc-br2:9092,vkc-br3:9092
You can then test that the line was added by running the consumer
/vagrant/scripts/consumer.sh test-one
Running vmstat
will periodically export stats about the VM you are attached to.
>vmstat -a 1 -n 100
procs -----------memory---------- ---swap-- -----io---- --system-- -----cpu-----
r b swpd free inact active si so bi bo in cs us sy id wa st
0 0 960 113312 207368 130500 0 0 82 197 130 176 0 1 99 0 0
0 0 960 113312 207368 130500 0 0 0 0 60 76 0 0 100 0 0
0 0 960 113304 207368 130540 0 0 0 0 58 81 0 0 100 0 0
0 0 960 113304 207368 130540 0 0 0 0 53 76 0 1 99 0 0
0 0 960 113304 207368 130540 0 0 0 0 53 78 0 0 100 0 0
0 0 960 113304 207368 130540 0 0 0 16 64 90 0 0 100 0 0
Redirecing this output to Kafka creates a basic form of a streaming producer.
vmstat -a 1 -n 100 | $KAFKA_HOME/bin/kafka-console-producer.sh \
--topic test-one --broker-list vkc-br1:9092,vkc-br2:9092,vkc-br3:9092 &
While the producer runs in the background you can start the consumer to see what happens
/vagrant/scripts/consumer.sh test-one
You should be seeing the output of vmstat
in the consumer console.
When you are all done, kill the consumer by ctl-C
. The producer will terminate by itself after 100 seconds.
The create-topic.sh
script creates a topic with replication factor 3 and 1 number of partitions.
Assuming you have completed the vmstat
example above using topic test-one
:
/vagrant/scripts/get-offset-info.sh test-one
test-one:0:102
There is one partition (id 0) and the last offset was 102 (from vmstat
: 100 lines of reports + 2 header lines)
We asked Kafka for the last offset written so far using --time -1
(as seen in get-offset-info.sh). You can change the time to -2
to get the first offset.